// Copyright The OpenTelemetry Authors // SPDX-License-Identifier: Apache-2.0 package metric // import "go.opentelemetry.io/otel/sdk/metric" import ( "context" "errors" "fmt" "sync" "sync/atomic" "go.opentelemetry.io/otel/internal/global" "go.opentelemetry.io/otel/sdk/metric/metricdata" ) // ManualReader is a simple Reader that allows an application to // read metrics on demand. type ManualReader struct { sdkProducer atomic.Value shutdownOnce sync.Once mu sync.Mutex isShutdown bool externalProducers atomic.Value temporalitySelector TemporalitySelector aggregationSelector AggregationSelector } // Compile time check the manualReader implements Reader and is comparable. var _ = map[Reader]struct{}{&ManualReader{}: {}} // NewManualReader returns a Reader which is directly called to collect metrics. func NewManualReader(opts ...ManualReaderOption) *ManualReader { cfg := newManualReaderConfig(opts) r := &ManualReader{ temporalitySelector: cfg.temporalitySelector, aggregationSelector: cfg.aggregationSelector, } r.externalProducers.Store(cfg.producers) return r } // register stores the sdkProducer which enables the caller // to read metrics from the SDK on demand. func (mr *ManualReader) register(p sdkProducer) { // Only register once. If producer is already set, do nothing. if !mr.sdkProducer.CompareAndSwap(nil, produceHolder{produce: p.produce}) { msg := "did not register manual reader" global.Error(errDuplicateRegister, msg) } } // temporality reports the Temporality for the instrument kind provided. func (mr *ManualReader) temporality(kind InstrumentKind) metricdata.Temporality { return mr.temporalitySelector(kind) } // aggregation returns what Aggregation to use for kind. func (mr *ManualReader) aggregation(kind InstrumentKind) Aggregation { // nolint:revive // import-shadow for method scoped by type. return mr.aggregationSelector(kind) } // Shutdown closes any connections and frees any resources used by the reader. // // This method is safe to call concurrently. func (mr *ManualReader) Shutdown(context.Context) error { err := ErrReaderShutdown mr.shutdownOnce.Do(func() { // Any future call to Collect will now return ErrReaderShutdown. mr.sdkProducer.Store(produceHolder{ produce: shutdownProducer{}.produce, }) mr.mu.Lock() defer mr.mu.Unlock() mr.isShutdown = true // release references to Producer(s) mr.externalProducers.Store([]Producer{}) err = nil }) return err } // Collect gathers all metric data related to the Reader from // the SDK and other Producers and stores the result in rm. // // Collect will return an error if called after shutdown. // Collect will return an error if rm is a nil ResourceMetrics. // Collect will return an error if the context's Done channel is closed. // // This method is safe to call concurrently. func (mr *ManualReader) Collect(ctx context.Context, rm *metricdata.ResourceMetrics) error { if rm == nil { return errors.New("manual reader: *metricdata.ResourceMetrics is nil") } p := mr.sdkProducer.Load() if p == nil { return ErrReaderNotRegistered } ph, ok := p.(produceHolder) if !ok { // The atomic.Value is entirely in the periodicReader's control so // this should never happen. In the unforeseen case that this does // happen, return an error instead of panicking so a users code does // not halt in the processes. err := fmt.Errorf("manual reader: invalid producer: %T", p) return err } err := ph.produce(ctx, rm) if err != nil { return err } var errs []error for _, producer := range mr.externalProducers.Load().([]Producer) { externalMetrics, err := producer.Produce(ctx) if err != nil { errs = append(errs, err) } rm.ScopeMetrics = append(rm.ScopeMetrics, externalMetrics...) } global.Debug("ManualReader collection", "Data", rm) return unifyErrors(errs) } // MarshalLog returns logging data about the ManualReader. func (r *ManualReader) MarshalLog() interface{} { r.mu.Lock() down := r.isShutdown r.mu.Unlock() return struct { Type string Registered bool Shutdown bool }{ Type: "ManualReader", Registered: r.sdkProducer.Load() != nil, Shutdown: down, } } // manualReaderConfig contains configuration options for a ManualReader. type manualReaderConfig struct { temporalitySelector TemporalitySelector aggregationSelector AggregationSelector producers []Producer } // newManualReaderConfig returns a manualReaderConfig configured with options. func newManualReaderConfig(opts []ManualReaderOption) manualReaderConfig { cfg := manualReaderConfig{ temporalitySelector: DefaultTemporalitySelector, aggregationSelector: DefaultAggregationSelector, } for _, opt := range opts { cfg = opt.applyManual(cfg) } return cfg } // ManualReaderOption applies a configuration option value to a ManualReader. type ManualReaderOption interface { applyManual(manualReaderConfig) manualReaderConfig } // WithTemporalitySelector sets the TemporalitySelector a reader will use to // determine the Temporality of an instrument based on its kind. If this // option is not used, the reader will use the DefaultTemporalitySelector. func WithTemporalitySelector(selector TemporalitySelector) ManualReaderOption { return temporalitySelectorOption{selector: selector} } type temporalitySelectorOption struct { selector func(instrument InstrumentKind) metricdata.Temporality } // applyManual returns a manualReaderConfig with option applied. func (t temporalitySelectorOption) applyManual(mrc manualReaderConfig) manualReaderConfig { mrc.temporalitySelector = t.selector return mrc } // WithAggregationSelector sets the AggregationSelector a reader will use to // determine the aggregation to use for an instrument based on its kind. If // this option is not used, the reader will use the DefaultAggregationSelector // or the aggregation explicitly passed for a view matching an instrument. func WithAggregationSelector(selector AggregationSelector) ManualReaderOption { return aggregationSelectorOption{selector: selector} } type aggregationSelectorOption struct { selector AggregationSelector } // applyManual returns a manualReaderConfig with option applied. func (t aggregationSelectorOption) applyManual(c manualReaderConfig) manualReaderConfig { c.aggregationSelector = t.selector return c }